EP1771001A2 - Discovery information for IP multicast - Google Patents

Discovery information for IP multicast Download PDF

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Publication number
EP1771001A2
EP1771001A2 EP06123994A EP06123994A EP1771001A2 EP 1771001 A2 EP1771001 A2 EP 1771001A2 EP 06123994 A EP06123994 A EP 06123994A EP 06123994 A EP06123994 A EP 06123994A EP 1771001 A2 EP1771001 A2 EP 1771001A2
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EP
European Patent Office
Prior art keywords
stream
multicast
offer
localisation
information
Prior art date
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Granted
Application number
EP06123994A
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German (de)
French (fr)
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EP1771001A3 (en
EP1771001B1 (en
Inventor
Philippe Perrot
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THOMSON LICENSING
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Nagra Thomson Licensing SA
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Priority to EP10185521.1A priority Critical patent/EP2362645B1/en
Priority to EP06123994A priority patent/EP1771001B1/en
Publication of EP1771001A2 publication Critical patent/EP1771001A2/en
Publication of EP1771001A3 publication Critical patent/EP1771001A3/en
Application granted granted Critical
Publication of EP1771001B1 publication Critical patent/EP1771001B1/en
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L12/00Data switching networks
    • H04L12/02Details
    • H04L12/16Arrangements for providing special services to substations
    • H04L12/18Arrangements for providing special services to substations for broadcast or conference, e.g. multicast
    • H04L12/1836Arrangements for providing special services to substations for broadcast or conference, e.g. multicast with heterogeneous network architecture
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N21/00Selective content distribution, e.g. interactive television or video on demand [VOD]
    • H04N21/20Servers specifically adapted for the distribution of content, e.g. VOD servers; Operations thereof
    • H04N21/23Processing of content or additional data; Elementary server operations; Server middleware
    • H04N21/238Interfacing the downstream path of the transmission network, e.g. adapting the transmission rate of a video stream to network bandwidth; Processing of multiplex streams
    • H04N21/2381Adapting the multiplex stream to a specific network, e.g. an Internet Protocol [IP] network
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N21/00Selective content distribution, e.g. interactive television or video on demand [VOD]
    • H04N21/60Network structure or processes for video distribution between server and client or between remote clients; Control signalling between clients, server and network components; Transmission of management data between server and client, e.g. sending from server to client commands for recording incoming content stream; Communication details between server and client 
    • H04N21/61Network physical structure; Signal processing
    • H04N21/6106Network physical structure; Signal processing specially adapted to the downstream path of the transmission network
    • H04N21/6125Network physical structure; Signal processing specially adapted to the downstream path of the transmission network involving transmission via Internet
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N21/00Selective content distribution, e.g. interactive television or video on demand [VOD]
    • H04N21/60Network structure or processes for video distribution between server and client or between remote clients; Control signalling between clients, server and network components; Transmission of management data between server and client, e.g. sending from server to client commands for recording incoming content stream; Communication details between server and client 
    • H04N21/63Control signaling related to video distribution between client, server and network components; Network processes for video distribution between server and clients or between remote clients, e.g. transmitting basic layer and enhancement layers over different transmission paths, setting up a peer-to-peer communication via Internet between remote STB's; Communication protocols; Addressing
    • H04N21/64Addressing
    • H04N21/6405Multicasting

Definitions

  • the invention relates to the delivery of multimedia services from a DVB compliant bundle to subscribers connected to an IP network.
  • the services are delivered over IP multicast.
  • Digital multimedia services such as for example television broadcast are currently delivered through service providers such as cable companies, satellite operators and, of course, direct terrestrial broadcast reception via traditional antennas.
  • service providers such as cable companies, satellite operators and, of course, direct terrestrial broadcast reception via traditional antennas.
  • Conventional cable service requires the installation of a dedicated cable to the subscriber's residence.
  • Satellite broadcast service requires that the users have a satellite dish located on or somewhere close to their residence.
  • Antennas are generally limited to the reception of local programming.
  • Fig. 1 schematically shows a service provider 100 and satellite broadcast / reception equipment 101 used to deliver digital multimedia services to a subscriber.
  • the multimedia services are delivered to subscribers equipped with a Set Top Box (STB) 102 or any other device that allows to receive, decode and process the broadcast services.
  • STB Set Top Box
  • Other examples for such devices are a personal computer or a decoder integrated in a television set.
  • the STB is connected to an audiovisual display 103 which allows to render graphics and sounds produced at an output of the STB as a result of processing.
  • the STB receives instructions from a user through a control interface such as for example a remote control 104 or a keyboard. This allows to instruct the STB to switch from one service to another, e.g. to switch from one television channel to another.
  • the service providers may broadcast the multimedia services in the frame of an offer and according to a widespread regional standard, e.g., the DVB-SI (used in Europe) and ATSC-PSIP (used in the US) standards which are used for satellite and terrestrial broadcast, or the SCTE (used in the US) which is similar to the ATSC-PSIP standard but applied to cable networks.
  • the standards each include similar functionalities including the use of service information in transport stream.
  • the standards are well known and described in the art.
  • the offer typically comprises a plurality of services, such as for example audio and/or visual programmes, data services or applications. Each service may be transmitted in data packets according to a well known MPEG-2 standard. The data packets are multiplexed in transport streams.
  • a transport stream may therefore carry a plurality of services of the offer. Due to bandwidth reasons, the service provider may decide to use more than one transport stream to transport the services, each one of the transport streams being broadcast at a predetermined frequency.
  • the transport streams are part of a regional standard compliant bundle. Furthermore each transport stream includes tables of Service information (SI) which indicates for example which services are available in a determined transport stream, or at which frequency the transport streams are broadcast.
  • SI Service information
  • the STB In order to receive, decode and process the services, the STB is MPEG and regional standard compliant.
  • the STB extracts and processes service information which allows for example to retrieve a description of a service and subsequently to select a service by tuning to a corresponding transport stream and filtering data packets.
  • IP based multicast relies on an infrastructure, in which an Internet Service Provider (ISP) operates the multicasting of audio/visual content with or without interactivity from various multimedia service operators and all the associated signalisation.
  • ISP Internet Service Provider
  • audio/visual content received for example from a satellite dish 200 is encapsulated in IP compliant format by an ISP 201 and multicast on the internet 202.
  • IP based multicast bears the possibility to easily combine the offers of a plurality of service providers that may deliver their programs over various types of distribution systems (cable network, satellite, terrestrial). All offers may be combined and brought to the subscriber using the internet. Hence the subscriber requires only one access, i.e. an access to the internet. This provides flexibility both to the ISP and to the subscriber.
  • the subscribers of the IP based multicast service providers have an IP compliant STB 203 and require a connection to the internet.
  • Possible types of connections to the internet include a PSTN telephone network, an ADSL connection or a permanent broadband connection such as a fibreglass or cable network line.
  • a bandwidth of the connection to the internet may considerably vary depending on the type of connection used.
  • the limitations of the available bandwidth has encouraged to develop IP based multicast systems which allow to selectively multicast a limited number of services from one localisation (IP address and port pair) to a range of subscribed STBs, e.g., a determined set top box obtains the services he has subscribed to only.
  • IP address and port pair IP address and port pair
  • STBs e.g., a determined set top box obtains the services he has subscribed to only.
  • the typical bandwidth available for internet connections is often at least one order of magnitude smaller than a bandwidth available in conventional cable networks or Satellite broadcast systems.
  • the STB may send requests to the ISP for receiving data, thereby submitting a localisation, i.e. an IP multicast address and port pair at which the data is being multicast.
  • a localisation i.e. an IP multicast address and port pair at which the data is being multicast.
  • corresponding IP data packets are routed to the STB.
  • IP based multicast An example of an IP based multicast is described in WO99/63759 .
  • the described system is used to broadcast content based on IP multicast using for example ADSL connections to reach set top boxes.
  • the system allows to retrieve broadcast television signals and to configure these signals into IP format for transmission over a network.
  • the system comprises a management system for managing a subscriber's access to the television signals.
  • the subscriber may select television programs using an Interactive Program Guide (IPG).
  • IPG Interactive Program Guide
  • the subscriber accesses the IPG through the Set Top Box (STB).
  • STB Set Top Box
  • some memory may be available locally for storing specific information, or alternatively, the entire IPG is maintained in the network.
  • the system further has a Digital TV Manager (DTVM), distinct from the STB, that provides end to end management of services and resources of the integrated broadcast delivery system.
  • DTVM Digital TV Manager
  • the DTVM in conjunction with the IPG provides a subscriber with the ability to channel browse for TV programs.
  • IP based multicast system may be found in W099/31871 .
  • This system was specifically designed to take into account the limited bandwidth of subscriber's internet connection.
  • One or more central channel server(s) collect(s) information about available programming services distributed from a multiplicity of content providers.
  • the channel server maintains a channel list database which tracks available content channel offerings and a subscriber database, which contains subscriber identifications and permitted channels for each subscriber.
  • the subscriber sends requests for programs to the channel server which checks the request and enables a flow of channel programming from the content provider to the subscriber's STB.
  • the subscriber is in communication with a server that receives and processes requests for programs.
  • the flow of the program to the subscriber's STB is enabled only if the subscriber's request is found by the server to be valid.
  • the server needs to process channel information from the content providers and to maintain a subscriber database.
  • the invention provides a method for distributing discovery information in an IP multicast television network.
  • the method comprises multicasting offer information linking a service provider offer description and a service provider offer localisation within the IP multicast network.
  • the method further comprises multicasting stream information at the service provider offer localisation, the stream information linking a multi service transport stream and a stream localisation within the IP multicast network.
  • the invention provides a method for broadcasting over an IP multicast network at least one offer of multimedia services received in form of a bundle of transport streams. For each offer, a determined service provider offer localisation within the IP multicast network is attributed. A file of offer information describing for each offer a relation to its attributed service provider offer localisation is created. For each offer, transport stream information is extracted from its bundle, the transport stream information comprising a transport stream identification for each transport stream. The method further comprises attributing for each transport stream identification a determined stream localisation within the IP multicast network, and creating for each offer a file of stream information describing for each transport stream a relation to its attributed stream localisation.
  • the method comprises adding for each offer a service provider offer description in the file of offer information.
  • a corresponding stream of packetized data is received and the packetized data inserted into IP packets.
  • the IP packets are multicast at the stream localisation previously attributed to the transport stream, and the file of offer information is multicast at a predetermined offer localisation.
  • the corresponding stream information file is multicast at the service provider offer localisation attributed to the offer.
  • the invention provides a method for receiving in a set top box receiver compliant to receive a bundle of transport streams and connected to an IP multicast network, a transport stream from a bundle.
  • the method comprises obtaining multicast stream information from a service provider offer localisation, processing the stream information to determine a stream localisation previously attributed to the transport stream, obtaining multicast IP packets from the stream localisation, and extracting packetized data from the obtained IP packets, thereby obtaining the transport stream.
  • the invention provides a method for receiving in a set top box receiver compliant to receive a bundle of transport streams and connected to an IP multicast network, a transport stream from an offer among one or many offers in form of bundles.
  • Multicast offer information is obtained from a predetermined offer localisation, and processed to obtain a determined service provider offer localisation previously attributed to the offer.
  • Multicast stream information is obtained from the determined service provider offer localisation, and processed to determine a stream localisation previously attributed to the transport stream.
  • Multicast IP packets are obtained from the stream localisation, and packetized data extracted from the obtained IP packets, thereby obtaining the transport stream.
  • the invention provides a method for receiving in a set top box receiver compliant to receive a bundle of transport streams and connected to an IP multicast network, a transport stream from an offer among one or many offers in form of bundles.
  • Multicast offer information is obtained from a predetermined offer localisation, and processed to obtain a list of items, each item relating a service provider offer localisation and an offer.
  • For each item multicast stream information is obtained from the service provider offer localisation corresponding to the item, and processed to obtain a transport stream list of transport streams and respectively related stream localisations.
  • the transport stream list is stored in the set top box.
  • a determined transport stream is requested and a stream localisation corresponding to the determined transport stream found in the transport stream list.
  • Multicast IP packets are obtained from the stream localisation, and packetized data extracted from the obtained IP packets, thereby obtaining the determined transport stream.
  • a Multimedia Service Operator (MSO) 300 selects multimedia services broadcast over satellite, terrestrial and cable.
  • the selection shown in Fig. 3 represents an example, and it may be varied in any combination of the suggested or any other known broadcast means.
  • the multimedia services are delivered in digital television transport streams broadcast according to a regional standard such as for example the DVB broadcast standard.
  • the transport streams are in MPEG-2 standard format.
  • the MSO provides the MPEG-2 transport streams to an IP delivery network operator, such as for example an Internet Service Provider (ISP) 301.
  • the transport streams are IP encapsulated by the ISP 301 and multicast on an IP broadband network 302.
  • the network 302 may for example be the internet or a proprietary IP network. Subscribers each have a STB 303 which is connected to the IP broadband network to receive IP data packets from the ISP 302.
  • MSOs There may be additional MSOs, e.g., an MSO 304, providing transport streams to the ISP 302.
  • IP encapsulate the transport stream at the level of the MSOs instead of the ISP, and to deliver the IP encapsulated transport stream to the ISP before multicast.
  • the MSOs generate discovery information needed at the receiver side, i.e., at the STB 303 side to be able to locate the different transport streams. More precisely the discovery information is required by the STB to localise an IP multicast transport stream, i.e., to know at which IP address and port the corresponding IP packets may be received.
  • the discovery information is inserted into one or many textual files, e.g. into the well known XML textual file format, and IP multicast on the IP broadband network 302 for the STB 303. Typically the discovery information is cyclically multicast.
  • the STB 303 receives the XML textual files, extracts the discovery information and uses the discovery information to select a transport stream and to determine the localisation at which the transport stream is IP multicast. After receiving IP packets from the localisation, the MPEG-2 transport stream is decapsulated out of the IP packets. Further information necessary to discover actual services available over the received transport stream or indeed other transport streams, is afterwards acquired from the transport stream itself through classical use of service information as defined in the regional standard used for broadcasting the transport streams, e.g. the well known DVB-SI standard.
  • Fig. 4A, 4B and 4C each represent an entity relation diagrammatic syntax that will be used to describe a data model for the discovery information.
  • Fig. 4A represents entities E1 and E2, where one entity E1 is in relation to one or many entities E2.
  • Fig. 4B represents a case in which one entity E1 is in relation to zero, one or many entities E2.
  • Fig. 4C represents a case in which one entity E1 inherits from one entity E2.
  • Information in box 500 may comprise information about zero, one or a plurality of MSO offers 501.
  • MSO offers 501 may be information about zero, one or a plurality of MSO offers 501.
  • two MSOs 300 and 304 contribute to the information about their offers to the MSO discovery information.
  • the MSO offer 501 may correspond to one or many sources of discovery information 502.
  • the nature of the discovery information 502 is described as a specialisation in Stream Discovery Information 503, that corresponds to information about transport streams available through IP multicast.
  • the Stream Discovery Information 503 corresponds to one or many Stream localisations 504.
  • the discovery information 502 may correspond also to other types of information than Stream Discovery Information 503. This may be the case if other data than transport streams are to be made available to the STB.
  • One example of other data is a discovery information about a service that is being multicast, i.e., the discovery information comprises a name, a proprietary IP address and a port number for that service.
  • Another example may be discovery information related to a Video On Demand service.
  • FIG. 6 a schematic representation of a system for bringing DVB transport streams to the STB of a subscriber using an IP broadcast network is shown.
  • Offer 1 and Offer 2 are provided.
  • the offers may be provided through one or more MSOs (not shown).
  • the offers 1 and 2 respectively cover transport streams TS 1,1 - TS 1,4 and TS 2,1 - TS 2,3 available in MPEG-2 format.
  • IP encapsulation in box 600 is used to encapsulate the transport streams, that are subsequently IP multicast at stream localisations respectively referenced by LN 1,1 - LN 1,4 and LN 2,1 - LN 2,3 , by an ISP 601.
  • FIG. 7 a schematic example in which discovery information is obtained and multicast for the system shown in Fig. 6, is given.
  • a first table 701 of offer information is created that indicates for each offer 1 and 2, a service provider offer localisation respectively LN 0,1 and LN 0,2 at which it is intended to multicast stream information.
  • a second table 702 and a third table 703 of stream information are created for respectively offer 1 and 2.
  • Each table contains a list of transport streams and corresponding stream localisations.
  • the stream information table 702 contains the list of transport streams TS 1,1 - TS 1,4 from offer 1 and the corresponding stream localisations LN 1,1 - LN 1,4 .
  • the stream information table 703 contains the list of transport streams TS 2,1 - TS 2,3 from offer 2 and the corresponding stream localisations LN 2,1 - LN 2,3 .
  • the tables 701 - 703 are inserted into XML textual files which are in turn prepared to be transmitted over the IP broadband network (not shown).
  • the table 701 is cyclically multicast at a predetermined offer localisation LN 0,0 which is known by the STB. Hence the STB will know from where to obtain the offer information, which is required to obtain a transport stream.
  • the tables 702 and 703 are cyclically multicast respectively at the service provider offer localisations indicated in the table 701 of offer information, i.e., at the service provider offer localisations LN 0,1 and LN 0,2 .
  • FIG. 10 A table in Fig. 10 illustrates a further example of fields which may be included in stream discovery information. The following description of the fields is made in reference to Fig. 10.
  • Stream discovery information may comprise information about one or a plurality of Transport Streams (TS).
  • TS Transport Streams
  • the original network Id is a parameter that identifies a network used to initially provide the TS, before the TS is converted for delivery over the IP multicast delivery network.
  • the TS Id is a parameter that identifies a Transport Stream.
  • Both the original network Id and the TS Id are parameters used for example in the local DVB standard, as part of DVB Service Information.
  • a combination of the original network Id and the TS Id as presented in this example allows each TS to be uniquely identified in the IP multicast network.
  • a service transported in a TS and having a service Id may be uniquely referenced through a path "original network Id/TS Id/service Id".
  • the localisation comprises information that allows to localise a TS in the IP multicast network.
  • the localisation comprises an IP multicast address and a port number for the TS.
  • the Stream Discovery Information may comprise an Identifier for the MSO that provides the Transport Stream(s) and a Version number that indicates a version number of the Stream Discovery Information.
  • the version number may be incremented every time a change in the Stream Discovery Information is made.
  • the STB is basically compliant to a regional standard, for example DVB compliant for the processing of MPEG-2 transport streams, i.e., it may process DVB transport streams and the corresponding DVB SI service information. This is well known in the art and will not be described here in any more detail.
  • any request from the STB which aims at accessing a service located in a determined transport stream, as determined through relevant DVB service information, will make use of discovery information gathered from multicast offer and stream information.
  • the receiver When requesting a transport stream, the receiver uses a same transport stream identification as in DVB-SI. However, instead of tuning to a frequency read from a table and corresponding to the frequency at which the transport stream may be received, as is the case in DVB bundles, the tuner looks up a table of multicast localisations and reads the IP address and port pair (stream localisation) from which the transport stream may be obtained.
  • This table is compiled from multicast offer and stream information, and stored into the STB.
  • DVB service information contained in the transport streams may for example be used to build an Electronic Program Guide.
  • the STB obtains at the predetermined offer localisation LN 0,0 the table 701 of offer information.
  • the STB processes the offer information to extract for each offer, i.e., offer 1 and 2, the service provider offer localisations LN 0,1 and LN 0,2 at which stream information may be obtained.
  • the stream information is obtained in box 801 from the service provider offer localisations, and a table 802 listing for each offer, the stream localisation at which a transport stream is multicast by the ISP, is compiled and stored into the STB.
  • the table 802 is used by the STB to identify at which stream localisation a stream may be obtained. This is illustrated in Fig. 9. Following a request 900 for a transport stream TS X,Y , e.g., a request generated by an application running in the STB, the table 802 (known from Fig. 8) is looked up in box 901, and the stream localisation LN X,Y retrieved. In a next step 902 the multicast transport stream TS X,Y is obtained from stream localisation LN X,Y , in form of IP packets 903. The MPEG-2 packets of the transport stream are extracted through IP decapsulation in 904. The MPEG-2 transport stream is obtained for further processing by the MPEG-2 part of the STB in 906.

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  • Engineering & Computer Science (AREA)
  • Signal Processing (AREA)
  • Multimedia (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Two-Way Televisions, Distribution Of Moving Picture Or The Like (AREA)
  • Data Exchanges In Wide-Area Networks (AREA)
  • Telephonic Communication Services (AREA)

Abstract

A method for receiving in a set top box receiver compliant to receive a bundle of transport streams and connected to an IP multicast network, a transport stream from a bundle. The method comprises obtaining a multicast file of stream information (702, 703) multicasted at a service provider offer localisation, processing the stream information to determine a stream localisation (LN1,1-LN1,4 , LN2,1 - LN2,3) within the IP multicast network, the stream localisation having previously been attributed to the transport stream, obtaining IP packets multicast at the stream localisation, and extracting packetized data from the obtained IP packets, thereby obtaining the transport stream.

Description

    Field of the invention
  • The invention relates to the delivery of multimedia services from a DVB compliant bundle to subscribers connected to an IP network. The services are delivered over IP multicast.
  • Background of the invention Broadcast of multimedia services
  • Digital multimedia services such as for example television broadcast are currently delivered through service providers such as cable companies, satellite operators and, of course, direct terrestrial broadcast reception via traditional antennas. Conventional cable service requires the installation of a dedicated cable to the subscriber's residence. Satellite broadcast service requires that the users have a satellite dish located on or somewhere close to their residence. Antennas are generally limited to the reception of local programming.
  • Fig. 1 schematically shows a service provider 100 and satellite broadcast / reception equipment 101 used to deliver digital multimedia services to a subscriber.
  • The multimedia services are delivered to subscribers equipped with a Set Top Box (STB) 102 or any other device that allows to receive, decode and process the broadcast services. Other examples for such devices are a personal computer or a decoder integrated in a television set. The STB is connected to an audiovisual display 103 which allows to render graphics and sounds produced at an output of the STB as a result of processing. The STB receives instructions from a user through a control interface such as for example a remote control 104 or a keyboard. This allows to instruct the STB to switch from one service to another, e.g. to switch from one television channel to another.
  • The service providers may broadcast the multimedia services in the frame of an offer and according to a widespread regional standard, e.g., the DVB-SI (used in Europe) and ATSC-PSIP (used in the US) standards which are used for satellite and terrestrial broadcast, or the SCTE (used in the US) which is similar to the ATSC-PSIP standard but applied to cable networks. The standards each include similar functionalities including the use of service information in transport stream. The standards are well known and described in the art. The offer typically comprises a plurality of services, such as for example audio and/or visual programmes, data services or applications. Each service may be transmitted in data packets according to a well known MPEG-2 standard. The data packets are multiplexed in transport streams. A transport stream may therefore carry a plurality of services of the offer. Due to bandwidth reasons, the service provider may decide to use more than one transport stream to transport the services, each one of the transport streams being broadcast at a predetermined frequency. The transport streams are part of a regional standard compliant bundle. Furthermore each transport stream includes tables of Service information (SI) which indicates for example which services are available in a determined transport stream, or at which frequency the transport streams are broadcast.
  • In order to receive, decode and process the services, the STB is MPEG and regional standard compliant. The STB extracts and processes service information which allows for example to retrieve a description of a service and subsequently to select a service by tuning to a corresponding transport stream and filtering data packets.
  • IP-based multicast
  • IP based multicast relies on an infrastructure, in which an Internet Service Provider (ISP) operates the multicasting of audio/visual content with or without interactivity from various multimedia service operators and all the associated signalisation. Referring to Fig. 2, audio/visual content received for example from a satellite dish 200 is encapsulated in IP compliant format by an ISP 201 and multicast on the internet 202.
  • IP based multicast bears the possibility to easily combine the offers of a plurality of service providers that may deliver their programs over various types of distribution systems (cable network, satellite, terrestrial). All offers may be combined and brought to the subscriber using the internet. Hence the subscriber requires only one access, i.e. an access to the internet. This provides flexibility both to the ISP and to the subscriber.
  • The subscribers of the IP based multicast service providers have an IP compliant STB 203 and require a connection to the internet. Possible types of connections to the internet include a PSTN telephone network, an ADSL connection or a permanent broadband connection such as a fibreglass or cable network line.
  • A bandwidth of the connection to the internet may considerably vary depending on the type of connection used. The limitations of the available bandwidth has encouraged to develop IP based multicast systems which allow to selectively multicast a limited number of services from one localisation (IP address and port pair) to a range of subscribed STBs, e.g., a determined set top box obtains the services he has subscribed to only. It appears that the typical bandwidth available for internet connections is often at least one order of magnitude smaller than a bandwidth available in conventional cable networks or Satellite broadcast systems.
  • In known IP multicast networks, the STB may send requests to the ISP for receiving data, thereby submitting a localisation, i.e. an IP multicast address and port pair at which the data is being multicast. In response to the request, corresponding IP data packets are routed to the STB.
  • An example of an IP based multicast is described in WO99/63759 . The described system is used to broadcast content based on IP multicast using for example ADSL connections to reach set top boxes. The system allows to retrieve broadcast television signals and to configure these signals into IP format for transmission over a network. Furthermore the system comprises a management system for managing a subscriber's access to the television signals. The subscriber may select television programs using an Interactive Program Guide (IPG). The subscriber accesses the IPG through the Set Top Box (STB). In the STB implementation some memory may be available locally for storing specific information, or alternatively, the entire IPG is maintained in the network. The system further has a Digital TV Manager (DTVM), distinct from the STB, that provides end to end management of services and resources of the integrated broadcast delivery system. The DTVM in conjunction with the IPG provides a subscriber with the ability to channel browse for TV programs. Data delivered to the IPG is tailored by the provider based on a number of parameters such as the customer profile.
  • Another example of an IP based multicast system may be found in W099/31871 . This system was specifically designed to take into account the limited bandwidth of subscriber's internet connection. One or more central channel server(s) collect(s) information about available programming services distributed from a multiplicity of content providers. The channel server maintains a channel list database which tracks available content channel offerings and a subscriber database, which contains subscriber identifications and permitted channels for each subscriber. The subscriber sends requests for programs to the channel server which checks the request and enables a flow of channel programming from the content provider to the subscriber's STB.
  • In both WO99/31871 and WO99/63759 , the subscriber is in communication with a server that receives and processes requests for programs. The flow of the program to the subscriber's STB is enabled only if the subscriber's request is found by the server to be valid. In order to provide this functionality, the server needs to process channel information from the content providers and to maintain a subscriber database.
  • It appears that the bandwidth of subscriber's internet connections is increasing as fibreglass networks or other performing technologies are being deployed. The bandwidth is often reaching values which is comparable with that of bandwidth available in conventional cable networks or Satellite broadcast systems.
  • Summary of the invention
  • In a first aspect the invention provides a method for distributing discovery information in an IP multicast television network. The method comprises multicasting offer information linking a service provider offer description and a service provider offer localisation within the IP multicast network. The method further comprises multicasting stream information at the service provider offer localisation, the stream information linking a multi service transport stream and a stream localisation within the IP multicast network.
  • In a second aspect the invention provides a method for broadcasting over an IP multicast network at least one offer of multimedia services received in form of a bundle of transport streams. For each offer, a determined service provider offer localisation within the IP multicast network is attributed. A file of offer information describing for each offer a relation to its attributed service provider offer localisation is created. For each offer, transport stream information is extracted from its bundle, the transport stream information comprising a transport stream identification for each transport stream. The method further comprises attributing for each transport stream identification a determined stream localisation within the IP multicast network, and creating for each offer a file of stream information describing for each transport stream a relation to its attributed stream localisation.
  • In a preferred embodiment the method comprises adding for each offer a service provider offer description in the file of offer information.
  • In a further preferred embodiment, for each transport stream a corresponding stream of packetized data is received and the packetized data inserted into IP packets. The IP packets are multicast at the stream localisation previously attributed to the transport stream, and the file of offer information is multicast at a predetermined offer localisation. For each offer the corresponding stream information file is multicast at the service provider offer localisation attributed to the offer.
  • In a third aspect the invention provides a method for receiving in a set top box receiver compliant to receive a bundle of transport streams and connected to an IP multicast network, a transport stream from a bundle. The method comprises obtaining multicast stream information from a service provider offer localisation, processing the stream information to determine a stream localisation previously attributed to the transport stream, obtaining multicast IP packets from the stream localisation, and extracting packetized data from the obtained IP packets, thereby obtaining the transport stream.
  • In a fourth aspect the invention provides a method for receiving in a set top box receiver compliant to receive a bundle of transport streams and connected to an IP multicast network, a transport stream from an offer among one or many offers in form of bundles. Multicast offer information is obtained from a predetermined offer localisation, and processed to obtain a determined service provider offer localisation previously attributed to the offer. Multicast stream information is obtained from the determined service provider offer localisation, and processed to determine a stream localisation previously attributed to the transport stream. Multicast IP packets are obtained from the stream localisation, and packetized data extracted from the obtained IP packets, thereby obtaining the transport stream.
  • In a fifth aspect the invention provides a method for receiving in a set top box receiver compliant to receive a bundle of transport streams and connected to an IP multicast network, a transport stream from an offer among one or many offers in form of bundles. Multicast offer information is obtained from a predetermined offer localisation, and processed to obtain a list of items, each item relating a service provider offer localisation and an offer. For each item multicast stream information is obtained from the service provider offer localisation corresponding to the item, and processed to obtain a transport stream list of transport streams and respectively related stream localisations. The transport stream list is stored in the set top box.
  • In another preferred embodiment a determined transport stream is requested and a stream localisation corresponding to the determined transport stream found in the transport stream list. Multicast IP packets are obtained from the stream localisation, and packetized data extracted from the obtained IP packets, thereby obtaining the determined transport stream.
  • Brief description of the figures
  • The invention will now be described in greater detail with reference to the accompanying drawings, in which
    • Fig. 1 shows a network system for broadcasting a DVB compliant bundle according to prior art ;
    • Fig. 2 shows a network system for IP multicasting services according to prior art;
    • Fig. 3 shows an example of a network system as used in the invention ;
    • Fig. 4A, 4B and 4C contains syntax diagrams for describing entity relation ;
    • Fig. 5 contains a data model according to the invention ;
    • Fig. 6 schematically illustrates an example for multicasting transport streams according to the invention ;
    • Fig. 7 schematically illustrates an example for offer and stream information according to the invention ;
    • Fig. 8 contains a flowchart explaining an example of processing discovery information at a STB according to the invention ;
    • Fig. 9 contains a flowchart explaining an example of obtaining a transport stream in a STB according to the invention.
    • Fig. 10 contains a table illustrating an example of stream discovery information according to the invention.
    Description of the preferred embodiments General overview
  • Referring to Fig. 3, a Multimedia Service Operator (MSO) 300 selects multimedia services broadcast over satellite, terrestrial and cable. The selection shown in Fig. 3 represents an example, and it may be varied in any combination of the suggested or any other known broadcast means. The multimedia services are delivered in digital television transport streams broadcast according to a regional standard such as for example the DVB broadcast standard. At this stage the transport streams are in MPEG-2 standard format. The MSO provides the MPEG-2 transport streams to an IP delivery network operator, such as for example an Internet Service Provider (ISP) 301. The transport streams are IP encapsulated by the ISP 301 and multicast on an IP broadband network 302. The network 302 may for example be the internet or a proprietary IP network. Subscribers each have a STB 303 which is connected to the IP broadband network to receive IP data packets from the ISP 302.
  • There may be additional MSOs, e.g., an MSO 304, providing transport streams to the ISP 302.
  • Alternatively, it would be possible to IP encapsulate the transport stream at the level of the MSOs instead of the ISP, and to deliver the IP encapsulated transport stream to the ISP before multicast.
  • The MSOs generate discovery information needed at the receiver side, i.e., at the STB 303 side to be able to locate the different transport streams. More precisely the discovery information is required by the STB to localise an IP multicast transport stream, i.e., to know at which IP address and port the corresponding IP packets may be received. The discovery information is inserted into one or many textual files, e.g. into the well known XML textual file format, and IP multicast on the IP broadband network 302 for the STB 303. Typically the discovery information is cyclically multicast.
  • The STB 303 receives the XML textual files, extracts the discovery information and uses the discovery information to select a transport stream and to determine the localisation at which the transport stream is IP multicast. After receiving IP packets from the localisation, the MPEG-2 transport stream is decapsulated out of the IP packets. Further information necessary to discover actual services available over the received transport stream or indeed other transport streams, is afterwards acquired from the transport stream itself through classical use of service information as defined in the regional standard used for broadcasting the transport streams, e.g. the well known DVB-SI standard.
  • Data model for discovery information
  • Fig. 4A, 4B and 4C each represent an entity relation diagrammatic syntax that will be used to describe a data model for the discovery information.
  • Fig. 4A represents entities E1 and E2, where one entity E1 is in relation to one or many entities E2.
  • Fig. 4B represents a case in which one entity E1 is in relation to zero, one or many entities E2.
  • Fig. 4C represents a case in which one entity E1 inherits from one entity E2.
  • Referring to Fig. 5, a data model for the discovery information generated by the MSO, i.e. MSO discovery information 500 is presented. Information in box 500 may comprise information about zero, one or a plurality of MSO offers 501. As an example, in the case illustrated in Fig. 3, two MSOs 300 and 304 contribute to the information about their offers to the MSO discovery information.
  • Referring again to Fig. 5, the MSO offer 501 may correspond to one or many sources of discovery information 502. The nature of the discovery information 502 is described as a specialisation in Stream Discovery Information 503, that corresponds to information about transport streams available through IP multicast. The Stream Discovery Information 503 corresponds to one or many Stream localisations 504.
  • It is understood that the discovery information 502 may correspond also to other types of information than Stream Discovery Information 503. This may be the case if other data than transport streams are to be made available to the STB. One example of other data is a discovery information about a service that is being multicast, i.e., the discovery information comprises a name, a proprietary IP address and a port number for that service. Another example may be discovery information related to a Video On Demand service.
  • IP multicast system for D VB transport streams
  • Referring to Fig. 6, a schematic representation of a system for bringing DVB transport streams to the STB of a subscriber using an IP broadcast network is shown.
  • In this example, two offers (Offer 1 and Offer 2) are provided. The offers may be provided through one or more MSOs (not shown).
  • The offers 1 and 2 respectively cover transport streams TS1,1 - TS1,4 and TS2,1 - TS2,3 available in MPEG-2 format. IP encapsulation in box 600 is used to encapsulate the transport streams, that are subsequently IP multicast at stream localisations respectively referenced by LN1,1 - LN1,4 and LN2,1 - LN2,3, by an ISP 601.
  • Example of discovery information
  • Referring to Fig. 7, a schematic example in which discovery information is obtained and multicast for the system shown in Fig. 6, is given.
  • A first table 701 of offer information is created that indicates for each offer 1 and 2, a service provider offer localisation respectively LN0,1 and LN0,2 at which it is intended to multicast stream information.
  • A second table 702 and a third table 703 of stream information are created for respectively offer 1 and 2. Each table contains a list of transport streams and corresponding stream localisations.
  • The stream information table 702 contains the list of transport streams TS1,1 - TS1,4 from offer 1 and the corresponding stream localisations LN1,1 - LN1,4.
  • The stream information table 703 contains the list of transport streams TS2,1 - TS2,3 from offer 2 and the corresponding stream localisations LN2,1 - LN2,3.
  • The tables 701 - 703 are inserted into XML textual files which are in turn prepared to be transmitted over the IP broadband network (not shown).
  • The table 701 is cyclically multicast at a predetermined offer localisation LN0,0 which is known by the STB. Hence the STB will know from where to obtain the offer information, which is required to obtain a transport stream.
  • The tables 702 and 703 are cyclically multicast respectively at the service provider offer localisations indicated in the table 701 of offer information, i.e., at the service provider offer localisations LN0,1 and LN0,2.
  • Stream discovery information
  • A table in Fig. 10 illustrates a further example of fields which may be included in stream discovery information. The following description of the fields is made in reference to Fig. 10.
  • Stream discovery information may comprise information about one or a plurality of Transport Streams (TS).
  • For each TS the following fields may be indicated:
    • an original network identification (Id),
    • a TS Id, and
    • a localisation.
  • The original network Id is a parameter that identifies a network used to initially provide the TS, before the TS is converted for delivery over the IP multicast delivery network.
  • The TS Id is a parameter that identifies a Transport Stream.
  • Both the original network Id and the TS Id are parameters used for example in the local DVB standard, as part of DVB Service Information.
  • A combination of the original network Id and the TS Id as presented in this example allows each TS to be uniquely identified in the IP multicast network. Hence, a service transported in a TS and having a service Id, may be uniquely referenced through a path "original network Id/TS Id/service Id".
  • The localisation comprises information that allows to localise a TS in the IP multicast network. The localisation comprises an IP multicast address and a port number for the TS.
  • In a preferred embodiment of the present example, the Stream Discovery Information may comprise an Identifier for the MSO that provides the Transport Stream(s) and a Version number that indicates a version number of the Stream Discovery Information. The version number may be incremented every time a change in the Stream Discovery Information is made.
  • Use of discovery information in the STB
  • It is understood that the STB is basically compliant to a regional standard, for example DVB compliant for the processing of MPEG-2 transport streams, i.e., it may process DVB transport streams and the corresponding DVB SI service information. This is well known in the art and will not be described here in any more detail.
  • One difference of the inventive STB as compared to a standard DVB compliant STB, is that it must be enabled to obtain the transport stream from a stream localisation in the IP broadband network, the transport stream being multicast at the stream localisation.
  • Hence, any request from the STB which aims at accessing a service located in a determined transport stream, as determined through relevant DVB service information, will make use of discovery information gathered from multicast offer and stream information.
  • When requesting a transport stream, the receiver uses a same transport stream identification as in DVB-SI. However, instead of tuning to a frequency read from a table and corresponding to the frequency at which the transport stream may be received, as is the case in DVB bundles, the tuner looks up a table of multicast localisations and reads the IP address and port pair (stream localisation) from which the transport stream may be obtained.
  • This table is compiled from multicast offer and stream information, and stored into the STB.
  • All further processing of the transport stream in itself and of DVB service information is done according to known methods well described in prior art. DVB service information contained in the transport streams may for example be used to build an Electronic Program Guide.
  • An example of processing offer and stream information will now be described together with Fig. 8. The example is based on the offers 1 and 2 described in relation to Figs. 6 and 7.
  • In box 800, the STB obtains at the predetermined offer localisation LN0,0 the table 701 of offer information. The STB processes the offer information to extract for each offer, i.e., offer 1 and 2, the service provider offer localisations LN0,1 and LN0,2 at which stream information may be obtained.
  • The stream information is obtained in box 801 from the service provider offer localisations, and a table 802 listing for each offer, the stream localisation at which a transport stream is multicast by the ISP, is compiled and stored into the STB.
  • The table 802 is used by the STB to identify at which stream localisation a stream may be obtained. This is illustrated in Fig. 9. Following a request 900 for a transport stream TSX,Y, e.g., a request generated by an application running in the STB, the table 802 (known from Fig. 8) is looked up in box 901, and the stream localisation LNX,Y retrieved. In a next step 902 the multicast transport stream TSX,Y is obtained from stream localisation LNX,Y, in form of IP packets 903. The MPEG-2 packets of the transport stream are extracted through IP decapsulation in 904. The MPEG-2 transport stream is obtained for further processing by the MPEG-2 part of the STB in 906.
  • Having described preferred embodiments of the invention with reference to the accompanying drawings, it is to be understood that the invention is not limited to these precise embodiments and that various changes and modifications could be effected therein by a person skilled in the art without departing from the spirit or scope of the invention as defined in the appended claims.

Claims (9)

  1. A method for receiving in a set top box receiver compliant to receive a bundle of transport streams and connected to an IP multicast network, a transport stream from a bundle, comprising
    ■ obtaining a multicast file of stream information (702, 703) multicasted at a service provider offer localisation,
    ■ processing the stream information to determine a stream localisation (LN1,1 - LN1,4, LN2,1 - LN2,3) within the IP multicast network, the stream localisation having previously been attributed to the transport stream,
    ■ obtaining IP packets multicast at the stream localisation,
    ■ extracting packetized data from the obtained IP packets, thereby obtaining the transport stream.
  2. The method for receiving according to claim 1, the transport stream being from an offer among one or many offers in form of bundles, the method further comprising
    ■ Obtaining a multicast file of offer information (701) multicast at a predetermined offer localisation,
    ■ Processing the offer information to obtain a determined service provider offer localisation (LN0,1, LN0,2) within the IP multicast network, the service provider offer localisation having previously been attributed to the offer,
    ■ Obtaining a multicast file of stream information (702, 703) multicast at the determined service provider offer localisation.
  3. The method for receiving according to claim 2, further comprising
    ■ processing the offer information to obtain a list of items, each item relating a service provider offer localisation within the IP multicast network, and an offer,
    ■ obtaining (801), for each item, multicast stream information (702, 703) multicasted at the service provider offer localisation corresponding to the item,
    ■ processing (801) the stream information to obtain a transport stream list (802) of transport streams and respectively related stream localisations within the IP multicast network,
    ■ storing the transport stream list in the set top box.
  4. The method for receiving according to claim 3, further comprising
    ■ requesting (900) a determined transport stream (TSX,Y),
    ■ finding (901) a stream localisation corresponding to the determined transport stream in the transport stream list (802),
    ■ obtaining (902) multicast IP packets (903) multicast at the stream localisation within the IP multicast network,
    ■ extracting (904) packetized data from the obtained IP packets, thereby obtaining the determined transport stream (905).
  5. The method for receiving according to any one of claims 2 to 4, wherein the offer information is obtained at a predetermined known offer localization within the IP multicast network.
  6. The method for receiving according to any one of claims 2 to 5, wherein the offer localisations and stream localisations are constituted by an IP multicast address and a port number within the IP broadband network.
  7. A set top box receiver to be connected to an IP multicast network to receive at least an offer of multimedia services being distributed over the IP multicast network, the multimedia services of at least one offer being delivered in a digital television transport stream, the digital television transport stream being multicast on the IP multicast network, the set top box further comprising :
    ■ means to obtain a file of offer information multicast on the IP multicast network, wherein the offer information describes for each offer a relation between a service provider offer description describing the offer, and an attributed service provider offer localisation within the IP multicast network;
    ■ means to obtain a file of stream information for each offer, the file of stream information being multicast at the attributed service provider offer localisation within the IP multicast network, the stream information comprising at least a list of transport streams and corresponding stream localisations within the IP multicast network used to multicast the transport streams on the IP multicast network.
  8. The set top box receiver according to claim 7, wherein the offer localisations and the stream localisations are constituted by an IP multicast address and a port number within the IP multicast network.
  9. The method for receiving according to any one of claims 1 to 6, wherein the transport streams are provided in the MPEG-2 standard format.
EP06123994A 2002-06-25 2002-08-08 Discovery information for IP multicast Expired - Lifetime EP1771001B1 (en)

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EP1516486A1 (en) 2005-03-23
EP2362645A1 (en) 2011-08-31
US20060156362A1 (en) 2006-07-13
EP1516486B1 (en) 2006-11-29
EP2362645B1 (en) 2013-10-09
JP2010213269A (en) 2010-09-24
EP1377054A1 (en) 2004-01-02

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